The right squeeze for quantum computing
Scientists at Hokkaido University and Kyoto University have developed a theoretical approach to quantum computing that is 10 billion times more tolerant to errors than current theoretical models.
Read MorePosted by Age of Robots | Jun 25, 2018 | Quantum |
Scientists at Hokkaido University and Kyoto University have developed a theoretical approach to quantum computing that is 10 billion times more tolerant to errors than current theoretical models.
Read MorePosted by Age of Robots | Jun 14, 2018 | Quantum |
Quantum bits are now easier to manipulate for devices in quantum computing, thanks to enhanced spin-orbit interaction in silicon.
Read MorePosted by Todd Hatcher | May 7, 2018 | Quantum |
Mounting security concerns over relentless international data breaches continues to jeopardize the...
Read MorePosted by Age of Robots | Mar 23, 2018 | Quantum |
The unique Australian approach of creating quantum bits from precisely positioned individual atoms in silicon is reaping major rewards, with two of these atom qubits made to “talk” to each other for the first time.
Read MorePosted by Age of Robots | Mar 21, 2018 | Quantum |
Researchers at Oxford University have set a new speed record for the ‘logic gates’ that form the building blocks of quantum computing – a technology that could transform the way we process information.
Read MorePosted by Age of Robots | Mar 20, 2018 | Machine Learning |
An international collaboration led by ETH physicists has used machine learning to teach a computer how to predict the outcomes of quantum experiments. The results could prove to be essential for testing future quantum computers.
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